巴西专利BR112015002165B1 shower

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专利摘要:
SHOWER The shower comprises a hollow body (10) provided with an inlet nozzle (11) and a sieve (C) hollowed out by holes (13); a cleaning means (40), carrying a plurality of lower pins (41) and being movable, inside the hollow body (10), between an inoperative position, with the pins (41) away from the screen (C), and a operating position, with each pin (41) inserted in a hole (13) of the sieve (C) and defining at least one water outlet with the hole (13); a driving means (50), associated with the inlet nozzle (11) and fixed to the cleaning means (40), to keep it in the inoperative position, while the hydraulic pressure in the inlet nozzle (11) is less than a value of reference, and moving the cleaning means (40) to the operating position, when said hydraulic pressure reaches the reference value; and a driving means (60) moving the means, actuator (50) and cleaning (40), to the inoperative position, when said hydraulic pressure is lower than the reference value.
公开号:BR112015002165B1
申请号:R112015002165-4
申请日:2013-08-02
公开日:2021-01-05
发明作者:Carlos Augusto Ramos De Barros
申请人:Fabrimar S/A Indústria E Comércio；
IPC主号:

专利说明:

FIELD OF THE INVENTION
[001] Refers to the present invention to a shower of the type to be installed in private, collective or public bathroom rooms and presenting a hollow body that is associated with a water supply pipe and inferiorly closed by a perforated plate , defining the shower screen and whose holes, through the passage of water, can be easily cleared of possible impurities or incrustations, by simple user manual operation, while using the shower, or automatically, by the shower operation itself. BACKGROUND OF THE INVENTION
[002] The problem of the progressive accumulation of impurities and incrustations in the sieve holes is well known, which tend to reduce or even block the passage of water through these holes, decreasing the amount of water released by the shower, compromising its operational performance and impairing the quality of the bath.
[003] In many known constructions, cleaning and unblocking the sieve holes requires disassembly of the shower, an operation that is usually somewhat complex and time-consuming, carried out with the help of tools and with the shower out of operation, that is, it cannot be performed during the bath and by means of simple and quick user manual action.
[004] Other showers known in the art are provided with a cleaning device that allows the user to manually move, during the bath, an internal frame to the shower body and that carries pins that are introduced, each and relatively in a respective hole in the sieve, to provide cleaning. Despite allowing a simple manual cleaning operation that can be performed during the bath, this known solution has the drawback of cleaning only by simultaneously inserting all the pins in the respective holes in the shower screen, holes that have a cross section reduced and easily clogged. Thus, if one of the holes in the sieve is blocked, on its upstream side, by an impurity particle sitting on it, not only the respective pin but also all the others will be prevented from penetrating the sieve holes. In this situation, disassembly of the shower for cleaning will be necessary, causing the inconveniences of this type of operation.
[005] Some constructive shower solutions are also known, presenting the automatic cleaning function of the sieve holes, as a result of the shower operation itself.
[006] In one of the known solutions, described in document PI9504809-0, the shower is provided with a cleaning device formed by an internal grid, fixed inside the hollow body of the shower, above the sieve and incorporating a plurality of cleaning pins , turned downwards and configured and positioned to be individually inserted inside a respective hole in the shower screen, when it has its register closed, that is, when the shower is taken to the closed condition.
[007] According to the construction of the aforementioned document, the screen is rotatably fixed in the hollow body of the shower and axially displaced between an active position, with the shower in the open condition and in which the through holes of the screen are kept away from the pins internal grid cleaners, and a rest position, with the shower in closed condition, in which the sieve holes are fitted to the internal grid cleaning pins, promoting the cleaning and unblocking of the sieve holes. An elastic element, mounted inside the hollow body, forces the sieve constantly to the resting position, and when the shower is taken to the open condition, the hydraulic pressure, acting on the sieve, overcomes the resistance imposed by the elastic element, separating the sieve of the cleaning pins and releasing the holes of the sieve for the free water outlet during the shower operation.
[008] This well-known construction, in spite of promoting the cleaning of the sieve holes, presents the drawback of keeping the sieve visually retracted into the hollow body when the shower is in the closed condition, hindering the total blockage of the remaining water inside the hollow body when closing the shower at the end of the bath. When the shower is closed and particularly when it is in an inclined position, even if only slightly, the water retained inside it finds it difficult to drain quickly due to the reduced diameter of the sieve holes, allowing the shower to keep dripping for some time, in an undesirable way, even after being brought to the closed condition.
[009] Another realization of this known construction results from the reduced diameter (about 1mm) of the sieve holes, which facilitates their obstruction by dirt. Any grain, with a larger diameter, will be trapped in one of the holes in the sieve and will not be removed by the cleaning pin, which can further impair the approximation between the sieve and all the cleaning pins of the internal grid, preventing the performance of the automatic cleaning and leading to the need to perform a laborious disassembly of the sieve, for manual cleaning.
[010] Another constructive solution is described in document PI0300309-4 and comprises an unblocking device, defined by a cleaning element incorporating a plurality of cleaning pins, facing downwards and positioned to be, depending on the operational conditions of the shower, inserted or removed from the inside of the through holes drilled in the shower screen.
[011] According to the particular construction of document PI0300309-4 mentioned above, the cleaning element, rotatably attached to the hollow body of the shower, is axially displaceable inside the latter, from an inoperative position, in which the cleaning pins are kept away from the sieve holes, while the shower remains in the open condition, that is, in the bath condition, and due to the hydraulic pressure, exerted by the water flow, under a first moving element (diaphragm), coupled to the cleaning element, in order to overcome the resistance imposed by a second resilient moving element (spring), which constantly forces the cleaning element to an operative position, in which the cleaning pins are inserted, with little play, in the sieve holes, thus remaining as long as the shower is in closed condition. The cleaning pins are brought to the operating position when the shower is closed, to provide self-cleaning and / or unblocking of natural impurities, which are normally brought to the hydraulic supply point and from there to the through holes of the sieve, during operation of the shower in the open condition.
[012] Although the aforementioned second solution provides the cleaning and unblocking of the holes through the sieve, in order to maintain the water flow defined in the shower design, it also has a sieve with small diameter holes (about 1mm), facilitating its obstruction by dirt. As already mentioned in relation to the other state-of-the-art document, grains with a larger diameter tend to get stuck in the sieve holes and cannot be removed by the cleaning pins, which can impair the approximation between the sieve and the internal cleaning pins. , preventing the automatic cleaning function from being carried out and leading to the need to perform a laborious disassembly of the sieve for manual cleaning.
[013] In addition to the aforementioned inconvenience, this second known solution requires the provision of a diaphragm which, if it breaks, even if small, will cause leaks that, depending on the proportions and hydraulic pressure of the shower, may prevent the operation of the latter.
[014] Another limitation, inherent to the aforementioned second above solution, concerns the fact that it does not allow the user to use, through a simple manual operation during the bath, the flow of pressurized water, entering the hollow body of the shower, to perform an intense washing of the sieve holes, when totally released by the cleaning element pins.
[015] In all known solutions, with manual or automatic cleaning, the sieve holes have a reduced cross section, which facilitates their clogging and hinders their unblocking not only by the cleaning pins, but also by the use of the water flow itself. shower power to wash the holes and remove impurities from them. In these known solutions, the small holes in the sieve also facilitate the occurrence of continuous dripping after the shower closes. DESCRIPTION OF THE INVENTION
[016] Due to the aforementioned drawbacks and related to state of the art solutions, the present invention aims to provide a shower of relatively simple and robust construction that allows an effective and easy unblocking, individual or joint, of the holes in the sieve, through simple user manual operation during the bath, or even automatically, by the shower operation itself, using the water flow that is passed through the sieve holes.
[017] The invention also provides a shower as mentioned above and that has a sieve capable of producing a pleasant bathing sensation, with a relatively low water flow and with the sieve holes being difficult or even impractical to obstruct due to the impurities that may be present. in the shower water flow.
[018] An additional objective of the present invention is to provide a shower as mentioned above and that presents a quick and complete drainage of the sieve, eliminating the inconvenience of the shower remaining dripping, for some time, after being closed, even if the shower is closed. screen positioned somewhat inclined with respect to a horizontal plane.
[019] The shower in question has an automatic cleaning function, which comprises a washing phase of the sieve holes, when the shower is initially opened, with said holes having a conveniently enlarged free cross section, and a cleaning and adjustment phase. cross-section free of said holes, during normal shower operation.
[020] In addition to the automatic cleaning function, the shower also has a manual cleaning function, allowing the user to perform, through a simple manual operation during the bath, an intense washing of the holes in the extended section of the sieve, when fully released by the cleaning element pins.
[021] The shower in question is of the type that comprises a hollow body provided with an inlet nozzle, to be coupled to a water supply pipe, and a lower wall defined by a screen hollow through a plurality of holes.
[022] According to the invention, the shower also comprises: a cleaning means mounted inside the hollow body, carrying a plurality of pins, projecting downwards, and being displaceable between an inoperative position, in which it keeps the pins away from the screen holes, and an operating position, in which each pin is inserted into a respective screen hole, defining at least one and, preferably, a plurality of water outlets with said hole; a driving means operatively associated with the inlet nozzle and fixed to the cleaning means, keeping the latter in said inoperative position, while the hydraulic pressure inside the inlet nozzle is below a reference value, and displacing said cleaning means to the operating position, when said hydraulic pressure reaches the reference value; and an impeller means mounted inside the hollow body and moving the means, driver and cleaning, to the inoperative position, when said hydraulic pressure is lower than the reference value.
[023] The solution proposed by the present invention comprises the provision of a fixed sieve and a mobile cleaning element, but whose lower pins are kept away from the sieve holes, while the shower remains closed and during an initial opening period shower, allowing an initial flow of water to enter the shower body and be directed to the sieve holes, of wide cross section, washing the latter, while they remain fully open, without any interference from the cleaning medium pins.
[024] With the opening of the shower, the hydraulic pressure in its inlet nozzle increases, moving the cleaning medium to the operating position, in which its pins are inserted in the respective holes of the sieve, promoting a second cleaning phase of the latter and regulating the flow of water released by the shower, by one or more water outlets formed between each pin and the internal contour of the respective sieve hole.
[025] The invention also proposes a construction capable of allowing the cleaning medium pins to be jointly or individually displaced, axially and upwards, to an inoperative position, to unlock the sieve holes, by the user acting with the shower in full bathing operation, so that the flow of pressurized water, entering the shower body, performs, in a totally open condition of the sieve holes, an intense washing of the latter. BRIEF DESCRIPTION OF THE DRAWINGS
[026] The invention will be described below, with reference to the accompanying drawings, given as an example of a possible realization of the invention and in which: Figure 1 represents a top perspective view of the hollow body of the shower; Figure 2 represents a bottom perspective view of the hollow body of a first embodiment of the shower, inferiorly closed by a sieve; Figure 3 represents a perspective view, diametrically and vertically cut, of the first realization of the shower in the closed condition, with the cleaning means in the inoperative position; Figure 4 represents a perspective view, diametrically and vertically cut, of the shower of Figure 3, but in the open state, with the cleaning means in the operating position; Figure 5 represents a perspective view, diametrically and vertically cut, of the shower of figures 3 and 4, in the fully open condition and with the cleaning element manually moved to the inoperative position, allowing the full flow of water, entering the body hollow of the shower, perform an intense washing operation of the sieve holes during the bath; Figure 6 represents a lower perspective view of the hollow body of a second embodiment of the shower, with the pins of the cleaning means in the operating position inserted inside the respective holes of the sieve with the shower in the open condition; Figure 7 represents a perspective view from the bottom of the hollow body of the second embodiment of the shower, with the pins of the cleaning means moved to an inoperative, elevated position and unlocking the sieve holes with the shower in the closed condition; Figure 8 represents a perspective view, diametrically and vertically cut, of the second realization of the shower in the open condition, with the cleaning medium pins in an operating position, internal to the respective holes in the sieve; Figure 8A represents an enlarged detail of part of figure 8; Figure 9 represents a perspective view, diametrically and vertically cut, of the shower of Figure 8, but in closed condition, with the cleaning medium pins in an inoperative position, recessed in relation to the respective holes in the sieve; Figure 10 represents an enlarged perspective view of one of the pins of the cleaning means; and Figure 11 represents a plan view of the pin shown in Figure 10, when positioned inside a respective screen hole, according to the second embodiment of the invention. DESCRIPTION OF ACCOMPLISHMENTS OF THE INVENTION
[027] As already mentioned and illustrated in the attached drawings, the shower in question comprises a hollow body 10 formed of any suitable material and provided with an inlet nozzle 11, to be coupled to a water supply pipe (not shown), and a lower wall 12, defined by a screen C hollow through a plurality of holes 13.
[028] According to the two illustrated constructions, the hollow body 10 has a side wall 14, generally cylindrical, but it can also be square, rectangular, oval, etc., having a lower edge 14a, whose sealing, in relation to a peripheral region of the lower wall 12, is effected by an O'ring 20, and an upper edge 14b incorporating a peripheral region of an upper wall 15, from which the inlet nozzle 11 projects outwards.
[029] The inlet nozzle 11 can be in the form of an internal or externally threaded tubular sleeve, to receive the end of the supply pipe (not shown), defining a rigid connection between the latter and the hollow body 10 of the shower.
[030] In the illustrated constructions, the inlet nozzle 11 internally defines the housing for a spherical inner end 18a of a tubular connector 18, the outer end of which 18b is configured to be threaded to the supply pipe.
[031] The inlet nozzle 11 also has an internal groove 11a inside which an O’ring 19 in elastomer is housed, to ensure the seal between the spherical inner end 18a and the inlet nozzle 11.
[032] The particular way in which the O’ring 19 is held in position inside the inlet nozzle 11, will be described below.
[033] The lower edge 14a of the side wall 14 has a thread 14c, preferably (but not necessarily) external, to which a ring 30 for fixing the screen C to the hollow body 10 is threaded.
[034] According to the invention, the shower further comprises a cleaning means 40 mounted inside the hollow body 10, carrying a plurality of pins 41, projecting downwards, the cleaning means 40 being displaceable between an inoperative position (figures 3, 5, 7 and 9), in which it keeps the pins 41 away from the holes 13 of the screen C, and an operating position, in which each pin 41 is inserted in a respective hole 13 of the screen C (figures 4, 6, 8 and 8A), defining at least one water outlet S, of reduced cross section, with the respective hole 13 into which the pin 41 is inserted.
[035] In the illustrated configurations, the cleaning means 40 comprises a grid 42 guided inside the hollow body 10 of the shower, during the movement of the cleaning means 40, between its inoperative and operating positions, said grid 42 carrying a plurality of pins 41, incorporated into it in one piece, or optionally, a plurality of pins 41 mounted in respective windows 42a in the grid 42, so as to be axially displaceable with respect to the latter, within said housings 45, for a distance slightly greater than axial extension of each hole 13 of screen C.
[036] One of the lower face parts of the cleaning element 40 and the upper face of the screen C can also incorporate a plurality of small eccentric axial shoulders 44 (see figures 3, 4, 5, 8, 8A and 9), the which are seated against the other of said parts, to keep the grid 42 slightly away from the screen C, when driven to the operating position.
[037] The shower also comprises an actuator means 50, operatively associated with the inlet nozzle 11 and fixed to the cleaning means 40, keeping the latter in said inoperative position, while the hydraulic pressure inside the inlet nozzle 11 is less than one reference value, and moving said cleaning means 40 to the operating position, when said hydraulic pressure reaches the reference value.
[038] An impeller means 60 is mounted inside the hollow body 10, to move the actuator 50 and cleaning means 40 to the inoperative position, when the hydraulic pressure inside the inlet nozzle 11 is lower than said reference value.
[039] In the illustrated construction forms, the hollow body 10 is provided, inside the inlet nozzle 11, with a conical seat 70, of tubular shape and which is preferably threaded inside the inlet nozzle 11 and projecting downwards of the upper wall 15 of the hollow body 10 and still axially aligned with the inlet nozzle 11.
[040] The conical seat 70 has an outer end 71 open to the interior of the inlet nozzle 11 and an inner end 72 open to the interior of the hollow body 10. The outer end 71 of the conical seat 70 has the function of defining the retention O'ring 19 lower axial axial, keeping the latter compressed between the inlet nozzle 11 and the spherical inner end 18a of the tubular connector 18.
[041] In the embodiment illustrated in figures 3, 4 and 5, the tapered seat 70 is provided with a plurality of internal axial recesses 75, extended to the inner end 72 of the tapered seat 70 and inferiorly opened to respective lower radial recesses 76, also provided at the internal end 72 of the conical seat 70, to allow a restricted fluid communication between the inlet nozzle 11 and the interior of the hollow body 10, when the shower operation starts.
[042] In the embodiment illustrated in figures 8, 8A and 9, the conical seat 70 has its lower end 72 configured to define, with the adjacent median portion of the grid 42, an annular gap that defines a restricted water passage between the entrance 11 and the interior of the hollow body 10, when the shower operation starts, that is, when it opens.
[043] The driving means 50 comprises a piston 51 having a basic end 51a fixed to the cleaning means 40 and a top end 51b having a median recess 51c which can have a slight inverted conical recess, as illustrated in figures 3, 4 and 5, or a deeper, inverted tapered recess to cooperate with the tapered seat 70, in the inoperative position of the cleaning medium 40, as shown in figures 8 and 9.
[044] Piston 51 is axially displaceable inside the hollow body 10, to move the cleaning medium 40 between its inoperative and operating positions, depending on the hydraulic pressure inside the inlet nozzle 11, that is, inside conical seat 70, upstream of piston 51.
[045] In the embodiment illustrated in figures 3, 4 and 5, the conical seat 70 and the piston 51 are constructed to allow relatively restricted fluid communication between the inlet nozzle 11 and the interior of the hollow body 10 when the cleaning medium 40 it is in the inoperative position, shown in figure 3, and full fluid communication between the inlet nozzle 11 and the interior of the hollow body 10, when the cleaning means 40 is moved to the operating position illustrated in figure 4.
[046] In the embodiment illustrated in figures 8 and 9, the conical seat 70 and piston 51 are built to: eliminate any relevant fluid communication between the inlet nozzle 11 and the interior of the hollow body 10 when the cleaning medium 40 is in inoperative position, illustrated in figure 9; partial fluid communication between the inlet nozzle 11 and the interior of the hollow body 10, when the cleaning means 40 is moved slightly downwards, depending on the hydraulic supply pressure, allowing a certain flow of water to reach the holes 13 of the sieve C before they receive the respective pins 41; and full fluid communication between the inlet nozzle 11 and the interior of the hollow body 10, when the cleaning means 40 is moved to the operating position shown in figures 8 and 8A, with the pins 41 inserted in the respective holes 13 of the screen C .
[047] Thus, in both configurations, when the shower opening starts, the pressurization of the inlet nozzle 11 and the conical seat 70 is made in a progressive manner, remaining below the reference value and which are insufficient for cause the piston 51 and the cleaning means 40 to move to the operating position of the latter, but allowing water to be fed into the holes 13 of the screen C while the pressure in the inlet nozzle 11 remains below the reference value.
[048] As long as the cleaning medium 40 remains in its inoperative position, with the impeller medium 60 exerting, against the piston 51, a force superior to the opposite, produced by the hydraulic pressure inside the conical seat 70, the water flow in the hollow body 10 will pass between piston 51 and the inner end 72 of the conical seat 70, more precisely through the inner axial recesses 75 and the lower radial recesses 76 of the conical seat 70, in the realization of figures 1 to 5, reaching the holes 13 of the sieve C which are completely free of the pins 41 of the cleaning element 40. This initial flow of water, entering the shower, performs the first cleaning phase, washing the holes 13 of the screen C and dragging, possible out of the hollow body 10, possible solid impurities brought from the hydraulic supply network.
[049] To make this first cleaning phase, in the form of a washing of the holes 13 of the screen C, these holes have a cross-sectional area, usually (but not necessarily) circular, larger than that required, in design, for each water outlet from screen C with normal shower operation.
[050] Thus, when pins 41 are inserted into holes 13, the free cross-sectional area of the latter becomes sufficient and adequate for the formation of the desired flow of water to be released by the shower. The debris, which exists in the water flow entering the hollow body 10, is removed by the initial washing flow and drained through the holes 13 of the screen C, dimensioned with a much larger diameter than that usually used, minimizing the retention of particulate material in the said holes 13.
[051] With the continuous opening of the shower, the hydraulic pressure inside the inlet nozzle 11 and the conical seat 70, is increased until reaching the reference value, from which the force exerted by the impeller means 60 is overcome, allowing that the piston 51 is moved towards the screen C, dragging the cleaning medium 40 to the operating position, in which the pins 41 are inserted in the respective holes 13, reducing the free cross section of the latter, to an area dimensioned to allow the adequate water outlet from screen C.
[052] In the realization of figures 1 to 5, the pins 41 are loosely inserted into the holes 13 of the screen C, defining a single outlet of water S, of ring shape, in the gap defined between the pin 41 and the internal wall of the respective hole 13. In this embodiment, the penetration of the pins 41 in the holes 13 also has the function of promoting a second phase of cleaning the screen C, unblocking the holes 13. Any residue that penetrates inside the hollow body 10 during its normal operation and that is greater than the annular radial clearance between each pin 41 and the respective hole 13, will be retained in the upper portion of the hole 13, without causing the flow distortions observed in the state systems.
[053] In the realization of figures 6 to 11, the holes 13 of the screen C have diameters even larger than those of the first embodiment, presenting a slightly inverted conical trunk shape, with each pin 41 presenting a body 41a with a corresponding trunk shape tapered to be fitted, without play, inside a respective hole 13 of the screen C, said body 41a carrying an upper neck 41b, to be mounted to the grid 42 of the cleaning means 40.
[054] In this second embodiment, the body 41a of the pin 41 is provided with a plurality of external axial grooves 41c, extended over the entire height of the body 41a and which each define with the internal wall of the respective hole 13 of the screen C , a water outlet S from the screen C. Thus, after receiving the respective pin 41, each hole 13 of the screen C becomes a plurality of water outlets S, increasing the feeling of fullness of water during the bath, with a consumption relatively low water content in relation to conventional solutions and even in relation to the solution defined in the first embodiment of the present invention.
[055] In said second embodiment, each pin 41 has its neck 41b of tubular shape, fitted, with little clearance, through a respective window 42a provided in the grid 42 and incorporating an extreme widening 41d to be seated in a region of the upper face of grid 42, defined around each window 42a. Thus, each pin 41 can be manually and individually moved upward by the shower user, during the bath itself, to completely free the respective hole 13 of the screen C, allowing the complete washing not only of the hole 13 itself but also of all the axial grooves 41c of the body 41a of the pin 41.
[056] To ensure that the pins 41 are properly positioned inside the respective holes 13 of the screen C, when the cleaning medium 40 is moved from the inoperative position to the operating position, especially when the screen C is positioned on an inclined plane ( non-horizontal), each pin 41 can incorporate at least one lower guide means 41e which, in the case of the second embodiment illustrated in figures 6 to 11, takes the form of a plurality of peripheral and lower axial projections of the body 41a of the pin 41. The lower guide means 41e must have an axial length sufficient to remain partially engaged within the respective hole 13 of the screen C when pin 41 is individual or in conjunction with the other pins 41, moved upwards to the inoperative position of the cleaning means 40.
[057] At the end of the bath, with the shower closed, the conical seat 70 is depressurized and the piston 51 and cleaning medium 40 are displaced by the pusher medium 60 to the inoperative position in which the holes 13 they are released from pins 41, remaining open to receive a new wash when the shower is opened again or when manual, set or individual displacement of pins 41 to the inoperative position of cleaning means 40.
[058] Also according to the illustrated configurations, the impeller means 60 comprises a helical spring 61 having an end seated on the screen C and an opposite end seated against one of the parts defined by the piston 51 and the cleaning means 40. Preferred, piston 51 has a tubular shape with its basic end 51a open and facing the screen C. With this construction, the opposite end of the helical spring 61 is fitted inside the piston 51 and seated under the top end 51b.
[059] In the embodiment illustrated in figures 1 to 5, the shower has an optional construction according to which the lower wall 12 incorporates a central tubular nozzle 16, having an external end 16a, provided internally with a small annular flange 17 that defines a stop means B, and an internal end 16b projecting into the body of the shower, through a tubular wall 16c, and against which the top end 51b of the piston 51 is seated when the cleaning element 40 it is brought to its operating position, with the shower in full operation, in the open condition. In this condition, the basic end of piston 51a is positioned around the tubular wall 16c of the central tubular nozzle 16.
[060] Inside the central tubular nozzle 16 a plunger 80, preferably in the form of a cup 81, is slidably mounted, having a side wall 82, telescopically sliding inside the central tubular nozzle 16, and a lower bottom wall 83 against which an end adjacent to the pusher means 60 is seated which, in the illustrated example, is defined by the helical spring 61.
[061] The side wall 82 of the cup 81 is provided with at least one peripheral groove 84 in which an o-ring seal 90 is housed, which is radial and slidably compressed against the tubular wall 16c of the central tubular nozzle 16.
[062] This realization allows the user to carry out, during the bath, an additional intense washing of the holes 13 of the screen C. For this, it is enough that the user promotes a simple manual, axial and upward displacement, of the plunger 80, inside the central tubular nozzle 16, from an inactive position, in which the lower end wall 83 is seated against the small annular flange 17, by actuation of the impeller means 60, to an active position, with the side wall 82 of the piston 80 seated against the end top 51b of piston 51 and axially displacing the cleaning element 40 to its inoperative position, with its lower pins 41 displaced out of the holes 13 of the screen C, allowing the flow of pressurized water into the shower body , perform an intense washing of the holes 13 of the screen C, in a totally open condition of the holes 13 and with the shower in full bathing operation.
[063] The user then releases the manual force exerted on the plunger 80, to allow the water pressure to push the cleaning element back to its operating position and for the impeller means 60 to return the plunger 80 to its inactive position.
[064] The user can perform several pressing and releasing operations on the plunger 80, to promote multiple washing operations of the holes 13 of the screen C, during the bath.
[065] As mentioned above, in the illustrated construction the lower wall 12, which defines the screen C, presents the central tubular nozzle 16, for housing the plunger 80. However, it must be understood that the lower wall 12 can be closed in the region of the central tubular nozzle 16 which, in this case, is removed from the shower, as well as the plunger 80. In this basic constructive option, the shower does not allow the user to perform the sieve washing operations during the bath, that is, during the shower operation.
[066] It should be understood that the construction illustrated in figures 6 to 11 can also have the same elements described in relation to the realization of figures 1 to 5, to allow the user to move all pins 41 together, by displacing the same plunger mounted on an identical central tubular nozzle provided in the sieve C. In the embodiment shown in figures 6 to 11, the central tubular nozzle 16 is closed internally by a removable wall and externally by a T plug.
[067] Although only two realizations of the invention have been illustrated here, it should be understood that changes in the form and layout of the component parts can be made, without departing from the inventive concept defined in the claims accompanying this report.

权利要求:
Claims (19)
[0001]
1. SHOWER, comprising a hollow body provided with an inlet nozzle (11), to be coupled to a water supply pipe, and a lower wall (12) defined by a screen (C) hollow through a plurality of holes (13), the shower being characterized by also comprising: a cleaning means (40) mounted inside the hollow body (10), carrying a plurality of pins (41), projecting downwards, and being movable between an inoperative position, in which it keeps the pins (41) away from the holes (13) of the screen (C), and an operative position, in which each pin (41) is inserted in a respective hole (13) of the screen (C), defining at least a water outlet (S) with a hole (13); a conical seat (70) provided inside the hollow body (10) and having an external end (71) maintained in communication with the inlet nozzle (11), and an internal end (72) open to the interior of the hollow body ( 10); a driving means (50) operatively associated with the inlet nozzle (11) and fixed to the cleaning means (40), the driving means (50) comprising a piston (51) having a basic end (51a) fixed to the cleaning means ( 40) and a top end (51b) cooperating with the inner end (72) of the conical seat (70) in the inoperative position of the cleaning means (40), operatively associated with the inlet nozzle (11) and fixed to the cleaning means (40), keeping the latter in the inoperative position, as long as the hydraulic pressure inside the inlet nozzle (11) is below a reference value, and displacing cleaning means (40) to the operating position, when the hydraulic pressure reaches the reference value; and an impeller means (60) mounted inside the hollow body (10) and moving the means (actuator (50) and cleaning (40), to the inoperative position, when the hydraulic pressure is below the reference value.
[0002]
2. SHOWER, according to claim 1, characterized by the conical seat (70) and the piston (51) allow a restricted fluid communication between the inlet nozzle (11) and the interior of the hollow body (10) when the cleaning (40) is in the inoperative position, and full fluid communication between the inlet nozzle (11) and the interior of the hollow body (10), when the cleaning means (40) is moved to the operating position.
[0003]
3. SHOWER, according to claim 2, characterized in that the conical seat (70) is provided with a plurality of internal axial recesses (75), extended to the internal end (72) of the conical seat (70) and inferiorly open for respective lower radial recesses (76), also provided at the inner end (72) of the conical seat (70), defining a restricted fluid communication between the inlet nozzle (11) and the interior of the hollow body (10), when the operation starts the shower.
[0004]
4. SHOWER, according to claim 1, characterized by the conical seat (70) and the piston (51) eliminate any relevant fluid communication between the inlet nozzle (11) and the interior of the hollow body (10) when the cleaning (40) is inoperative and provide partial fluid communication between the inlet nozzle (11) and the interior of the hollow body (10), when the cleaning means (40) is initially moved downwards, depending on the pressure hydraulic supply, and full fluid communication between the inlet nozzle (11) and the interior of the hollow body (10), when the cleaning means (40) is moved to the operating position, with the pins (41) inserted in the respective holes (13) of the sieve (C).
[0005]
SHOWER, according to any one of claims 2 to 4, characterized in that an impeller means (60) comprises a helical spring (61) having one end seated on the screen (C) and one opposite end seated against one of the defined parts the piston (51) and the cleaning means (40).
[0006]
6. SHOWER, according to claim 5, characterized by the piston (51) having a tubular shape with its basic end (51a) open and facing the screen (C).
[0007]
7. SHOWER, according to claim 6, characterized in that the opposite end of the helical spring (61) is fitted inside the piston (51) and seated under the top end (51b) of the latter.
[0008]
SHOWER, according to any one of claims 1 to 7, characterized in that the hollow body (10) has a side wall (14), having a lower edge (14a), against which a peripheral region of the sieve is seated and fixed (C), and an upper edge (14b) incorporating a peripheral region of an upper wall (15), the conical seat (70) being defined by a central and descending projection of the upper wall (15).
[0009]
9. SHOWER, according to claim 8, characterized in that the lower edge (14a) of the side wall (14) has a thread (14c) to which a ring (30) for fixing the sieve (C) is threaded.
[0010]
10. SHOWER, according to any one of claims 1 to 9, characterized in that the cleaning means (40) comprises a grid (42) guided inside the hollow body (10) of the shower and carrying the plurality of pins (41), projectors down.
[0011]
11. SHOWER, according to any one of claims 1 to 10, characterized by the water outlet (S), defined in each hole (13) of the sieve (C), when the cleaning means (40) is in the operating position, present an area of sufficient cross-section for the formation of the desired flow of water to be released by the shower.
[0012]
12. SHOWER, according to any one of claims 1 to 11, characterized in that the lower wall (12) of the hollow body (10) incorporates a central tubular nozzle (16), having an external end (16a) provided with a stop means (B) and an internal end (16b) against which the actuating means (50) is seated when the cleaning element (40) is brought to its operating position, and inside the central tubular nozzle (16) it is slidably mounted a plunger (80), manually movable from an inactive position, in which it is seated, by actuation of the impeller means (60), against the stop means (B), to an active position, with the plunger (80) seated against the actuator means (50) and axially displacing the cleaning element (40) upwards and to its inoperative position, against the action of the impeller means (60) and the hydraulic pressure in the inlet nozzle (11).
[0013]
13. SHOWER, according to claim 12, characterized in that the stop means (B) provided at the outer end (16a) of the tubular nozzle (16), is defined by a small annular flange (17).
[0014]
14. SHOWER, according to claim 12, characterized in that the plunger (80) is in the form of a cup (81) comprising a side wall (82), telescopically sliding inside the central tubular nozzle (16), and an extreme wall bottom (83) against which an end adjacent to the driving means (60) is seated.
[0015]
15. SHOWER, according to claim 14, characterized in that the inner end (16b) of the central tubular nozzle (16) protrudes into the hollow body (10) of the shower, through a tubular wall (16c), the side wall (82) of the cup (81) being provided with at least one peripheral groove (84) in which a sealing ring (90) is housed, which is radial and slidably pressed against the tubular wall (16c).
[0016]
16. SHOWER, according to any one of claims 1 to 15, characterized by the pins (41) being loosely inserted into the holes (13) of the sieve (C), defining a single ring-shaped water outlet (S) in the clearance defined between the pin (41) and the internal wall of the respective hole (13).
[0017]
17. SHOWER, according to any one of claims 1 to 15, characterized by the holes (13) of the sieve (C) having an inverted conical trunk shape, with each pin (41) having a body (41a) with a corresponding shape conical trunk to be fitted, without play, inside a respective hole (13) of the sieve (C), body (41a) carrying an upper neck (41b), to be mounted to the cleaning medium (40), being the body (41a) provided with a plurality of external axial grooves (41c), which each define, with the internal wall of the respective hole (13) of the screen (C), a water outlet (S).
[0018]
18. SHOWER, according to claim 17, characterized in that each pin (41) has its neck (41b) of tubular shape, fitted, with little clearance, through a respective window (42a) provided in the grid (42) and incorporating an extreme flare (41d) to be seated on the cleaning means (40), each pin (41) being manually and individually displaceable upwards, to completely release the respective hole (13) of the sieve (C).
[0019]
19. SHOWER, according to any one of claims 1 to 18, characterized in that each pin (41) incorporates at least one lower guide means (41e) in the form of at least one lower axial projection of the body (41a) of the pin ( 41) and having an axial length sufficient to remain partially engaged within the respective hole (13) of the sieve (C) when the pin (41) is in the inoperative position of the cleaning means (40).

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同族专利:

公开号 | 公开日

US9839923B2|2017-12-12|

WO2014019046A1|2014-02-06|

BR112015002165A2|2017-07-04|

CN104640639A|2015-05-20|

US20150196927A1|2015-07-16|

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GB2210566B|1987-10-06|1991-04-03|Caradon Mira Ltd|Improved spray head for ablutionary appliances|

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GB0611418D0|2006-06-09|2006-07-19|Kohler Mira Ltd|Improved spray head for ablutionary applicances|US10413917B2|2014-09-03|2019-09-17|Kohler Co.|Shower|

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DK3280539T3|2015-04-09|2019-04-23|Husqvarna Ab|SPRAY HEAD AND SPRAY DEVICE|

CN105498997B|2015-10-15|2019-05-28|厦门倍杰特科技股份公司|Shower with automatic water stopping and self-cleaning function|

CN105521881B|2015-10-15|2019-02-15|厦门倍杰特科技股份公司|Automatic water stopping shower|

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CN106861946A|2015-12-10|2017-06-20|厦门松霖科技有限公司|A kind of top-spraying gondola of back toggle switching|

CN106000682B|2016-07-11|2018-04-13|南安市丽迪家居用品有限公司|A kind of blockage-resistant shower head with rotor|

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DE102016219551B4|2016-10-07|2022-01-05|Hansgrohe Se|Shower jet generating device|

DE102016225987A1|2016-12-22|2018-06-28|Hansgrohe Se|Effervescent spray outlet device and shower equipped therewith|

CN106670002B|2017-03-09|2018-12-21|浙江维艺实业股份有限公司|A kind of movie and video programs water injector for shooting|

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CN110899009A|2018-09-17|2020-03-24|厦门松霖科技股份有限公司|Water outlet device|

CN112474086B|2020-12-16|2021-10-15|杭州富阳行健塑料五金有限公司|Anti-scaling spray head|

法律状态:
2018-03-27| B15K| Others concerning applications: alteration of classification|Ipc: B05B 1/18 (2006.01), B05B 1/30 (2006.01), B05B 15/ |

2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|

2020-03-31| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

2020-10-20| B09A| Decision: intention to grant|

2021-01-05| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 02/08/2013, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

BR1020120193736|2012-08-02|

BR102012019373A|BR102012019373A2|2012-08-02|2012-08-02|shower|

BR1020130124443|2013-05-20|

BR102013012444A|BR102013012444A2|2013-05-20|2013-05-20|shower|

PCT/BR2013/000282|WO2014019046A1|2012-08-02|2013-08-02|Showerhead|

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